Wireless Power Solution Jeff McCreary President and CEO Analog Semiconductor Forum October 8, 2013 PAGE 1
AGENDA IDT: Who We Are The Next Killer Application Wireless Power User Benefits Market Opportunities Technical Challenges IDT Solutions PAGE 2
Snapshot Founded 1980 Workforce Headquarters Core Expertise Approximately 1,800 employees San Jose, California Timing, high speed mixed signal design, serial interconnects, memory interfaces, power management, radio frequency (RF) and data conversion Sales Channels Financials Research and Development Worldwide network of direct, manufacturing representatives and distribution sales FY13 revenue - $487.2M Market cap approx. - $1.3B Cash investments - $310M Well over $100M / year, leading to 900+ issued or pending patents Mixed-signal, application-specific solutions PAGE 3
Secular Growth Driver: The Mobile Internet T E C H N O L O G Y T R A N S I T I O N S Tablets, smartphones, ultrabooks Battery life Shrinking form factors Decreasing cost Intel ARM Windows Android LTE 8x higher data rates 4G iphone and Android handsets Macro Small cell Real time connectivity DDR3 DDR4 Romley Haswell Memory bottleneck Power consumption Microservers Performance Bottlenecks Moving to the Interfaces PAGE 4
Analog+Digital Solutions for Mobility, 4G & the Cloud Consumer Communications Infrastructure Enterprise Computing RF, Compression, Data Conversion Interface and Connectivity RapidIO PCI Express Memory Interface PCI Express Signal Integrity Analog and Power Wireless Power Power Management Power Management Power Management Timing and Synchronization Timing Timing Timing PAGE 5
Wireless Power PAGE 6
Cutting the Cords PAGE 7
Why Wireless Power End User Benefits True Mobility Convergence of communication, entertainment and computing Mobile devices become essential part of your daily life Frequent and convenient charging become more critical Removing the last cord creates TRUE MOBILITY! PAGE 8
Why Wireless Power End User Benefits Convenience: Charging Anywhere and Everywhere, without Cords and Wires for Laptops, Mobile Phones, Tablets, e-readers, and Media Players Simply place device on charging mat or wireless power enabled surface PAGE 9
Application Solution Examples PAGE 10
Large and Growing Market Unit Shipment-Wireless Power Receivers Share of Total Units by Application-2011-2021(m) 100% 90% 80% 70% 60% 50% 40% Rest Apps Tablets Mobile Phones 30% 20% 10% 0% 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 Mobile phones and tablets dominate throughout the forecast Source: IHS, isuppli, September 2013 PAGE 11
Global OEM Smart Phone Market Share 2500 2000 1500 1000 500 0 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 Apple Samsung Nokia BlackBerry HTC Motorola/Google Mobility Sony Ericsson LG Huawei ZTE Total Other OEMs Source: Company Reports and Canaccord Genuity Estimates PAGE 12
Large and Growing Market Unit Shipments- Wireless Power Transmitters & Receivers Combined unit shipments of 1.5 billion by 2021 Source: IHS, isuppli, September 2013 Equivalent to revenues of >$250 million in 2013 and $10 billion in 2021 PAGE 13
Advanced Technologies Technically Challenging Mixed Signal architecture requirements Different appliances have different range and power requirements, so each of these technologies has its own technical challenges Two types of wireless technologies dominate the industry: Inductive coupling and magnetic resonance- lack of single standard PAGE 14
Input Power Output Load Architecture Requirements Magnetics Communications Precision Analog and Conversions Power Management Intelligence Signal Processing RF(Radio Frequency) EMI Closed Loop Control Analog IN PWR Communicate Base Station Sensing Control Transmitter(s) Control System Cont Comm Power Generation DeMod Wireless Interface Control Comm Load Reflection Induction Analog Mod Mobile Device Receiver Control System Comm Cont Power Pick-Up Sensing Control Out PWR Digital Power Transmit Transmitter Receiver Power Received Digital Power Communicate Power PAGE 15
Wireless Power Magnetic Induction (Device on Charging Mat) Magnetic Resonance (Proximity) PAGE 16
MI or MR Technology? What is ideal solution MI (Magnetic Induction)? MR (Magnetic Resonance)? 중립국 PAGE 17
Wireless Power Technologies Magnetic Induction Variable Frequency Magnetic field mostly contained in between ferrite shielding Receiver and Transmitter Coils aligned and tightly coupled Magnetic Resonance Tx antennas are designed to create a charging area or field Magnetic field radiates outward and is not shielded Loose coupling provides spatial freedom PAGE 18
Inductive Wireless Power Transfer Power Transfer via Inductive Coupling at Short Distances (mm) Transmitter (Tx) and Receiver (Rx) coils are inductively coupled coils AC current in Tx coil generates magnetic field, which induces a voltage in Rx coil. Rx voltage may be used to power a mobile device or charge a battery Magnetic field concentrated in small volume between Tx / Rx User exposed to leakage fields only, which are minimized by shielding Improve coupling between coils by Matching coil sizes Flat interface surface to keep the distance small. Shielding and aligning coils Rx Surface Tx Surface Rx Coil I db/dt Shielding Distance Tx Coil Shielding PAGE 19
Work Principle Coil Alignment Design Freedom Guided positioning with tactile feedback Free positioning with moving coil Free positioning with selective activation of coils in coil array Guided Positioning (Magnetic Attraction) M Free Positioning (Coil Array) A Free Positioning (Moving Coil) y x PAGE 20
Standardization WPC & PMA A4WP PAGE 21
Wireless Power Magnetic Induction (Device on Charging Mat) Magnetic Resonance (Proximity) Multi-Mode / WPC Qi and PMA Compliant Transmitter Widest product portfolio in the industry Only single chip solution - smallest size and lowest BOM Receiver Shortest charging time highest power Dual-mode support of WPC and PMA (IDTP9021) A4WP Solutions Partnership with Intel and Qualcomm PAGE 22
Wireless Power System Transmitter (Tx) Power Conversion Unit: DC-to-AC Conversion Adapts Power Transfer To the need of the receiver To a required operating point Receives Messages Via communication packets by demodulation of the reflected load IDTP903x Transmitter Family Receiver (Rx) Power Receive Unit: AC-to-DC Conversion Controls Received Power To the need of the mobile device To the desired operating point Sends Messages Via communication packets by load modulation on the power signal IDTP902x Receiver Family Modulation/ Demodulation Status & PG Indicator ADC Synch Half Bridge Inverter Synch Full Bridge Rectifier Modulation/ Demodulation ADC Status & PG Indicator OTP, UVLO OVP, OCP Buck Converter Micro Controller 2 Ways Secure Authentication Thermal Loop Control IDT Back Channel Communication 2 Ways Secure Authentication Thermal Control Micro Controller /or state-machine OTP, UVLO OVP, OCP Buck Converter Load FOD RAM GPIO WPC Qi Communication Link USB/Adaptor Control RAM FOD GPIO I2C ROM Clock Clock ROM I2C PAGE 23
Wireless Power Challenges Magnetic Induction vs. Magnetic Resonance? Two dominant Magnetic Induction standards System designers demand the freedom to individualize their end products design PAGE 24
IDT s Solutions PAGE 25
Dual-Mode Wireless Power Receiver: IDTP9021 Industry s First Dual-Mode Wireless Power Receiver Eliminates compatibility barriers between transmission standards with a single-chip solution, empowering mobile device and accessory OEMs to use a single bill-of-materials (BOM) and minimize the application footprint Automatically switches between WPC and PMA protocols and negotiates the power exchange without user supervision Achieves compatibility with the emerging PMA Type 1 interoperability specification in addition to compliance with the WPC Qi standard Allows customers to consolidate multichip configurations into a single-chip solution PAGE 26
IDTP9021 - Industry s First Dual-Mode Wireless Power Receiver Industry s First Dual-Mode Compatible Solution Compliant with WPC and PMA Fully Integrated Single-Chip Receiver with Regulated 5V Output Standalone Communication and Protocol Management Foreign Object Detection (FOD) for Safety Closed-Loop Power Transfer control between Base Station and Mobile Device Programmable option for added security and encryption up to 64 bit High Effi Synchronous Full Bridge Rectifier 2 Ways Secure Authentication OTP, UVLO OVP, OCP Status & Power Good Indicator USB/Adaptor Control GPIO I 2 C Embedded Micro Controller RAM ROM Modulation/ Demodulation Thermal Loop Control Multi Layer Foreign Object Detection Proprietary Back Channel Communication High Effi Buck Converter ADC Clock PAGE 27
Wireless Power Challenges Magnetic Induction vs. Magnetic Resonance? IDT offers both technologies Two dominant Magnetic Induction standards IDT provides the first and only dual mode solution System designers demand the freedom to individualize their end products design IDT s solution includes microcontroller for design flexibility & individualization IDT offers proprietary back channel communication PAGE 28
The Developing Ecosystem Standards Telecom Carriers Text in here ODMs, OEMs, Text Accessories in here Text in here Handset Text in OEMs here Text in here PAGE 29
Cutting the Cords: Road to True Mobility Real User Benefit- True Mobility and Convenience Rapid Market Growth & Deployment Technical Challenges Market Challenges Superior IDT Solutions PAGE 30
감사합니다 Thank You PAGE 31